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Neutrophils fuel effective immune responses through gluconeogenesis and glycogenesis

Pranvera Sadiku, Joseph Willson, Eilíse M. Ryan, David Sammut, Patrícia Coelho, Emily Watts, Robert Grecian, Jason M. Young, Martin A. Bewley, Simone Arienti, Ananda S. Mirchandani, Manuel A. Sánchez-García, Tyler Morrison, Ailing Zhang, Leila Reyes, Tobias Griessler, Privjyot Jheeta, Gordon Paterson, Christopher J Graham, John P. Thomson, J. Kenneth Baillie, A.A. Roger Thompson, Jessie-May Morgan, Abel Acosta‐Sanchez, Verónica M. Dardé, Jordi Durán, Joan J. Guinovart, Giovanny Rodriguez Blanco, Alex von Kriegsheim, Richard R. Meehan, Massimiliano Mazzone, David H. Dockrell, Bart Ghesquière, Peter Carmeliet, Moira K. B. Whyte, Sarah R. Walmsley

2021Cell Metabolism43 citationsDOIOpen Access PDF

Abstract

sponsorship: Academy of Medical Sciences (AMS)|AMS-SGCL11-Thompson, British Heart Foundation|FS/18/13/33281, Medical Research Council|MR/N02995X/1, Medical Research Council|MC_PC_U127574433, MRC|MR/N02995X/1

Topics & Concepts

GlycogenGluconeogenesisImmune systemBiologyMedicineImmunologyEndocrinologyMetabolismNeutrophil, Myeloperoxidase and Oxidative MechanismsCancer Research and TreatmentsVitamin C and Antioxidants Research
Neutrophils fuel effective immune responses through gluconeogenesis and glycogenesis | Litcius